KR20170123086A - Measuring Instrument - Google Patents

Abstract

The present invention relates to a measurement device. The measurement device comprises: a converter assembly having a bus bar connected to a circuit breaker; a PCB assembly to which a voltage detection board and a control board are connected; and a screw coupling the bus bar and the voltage detection board, wherein the voltage detection board detects a voltage through the screw, thereby providing advantages that a structure is simple and maintenance is easy.

Description

{Measuring Instrument}

The present invention relates to a measuring instrument, and more particularly, to a measuring instrument connected to a circuit breaker to measure an amount of electricity.

The instrument measures the physical quantities such as weight, capacity, speed, vibration, noise, temperature, heat quantity, length, voltage and current.

The instrument is provided in a distribution panel, and can measure the amount of electricity such as current, voltage, and power for busbars or branches of the distribution board.

The distribution board is installed by assembling a branch overcurrent protector. It is installed in a cabinet by assembling a circuit breaker, which can cut short-circuit current close to the load, among electric lines supplying electricity to the load.

The circuit breaker supplies and cuts the current to the load, which prevents electric shock when the equipment is inspected or reduces power waste on the unused load side. The circuit breaker is a power system protection device that prevents current from being spread quickly by breaking the current in case of a fault in the power system. A plurality of breakers may be installed in the distribution box within the breaker.

The instrument can be installed in the distribution box, and the amount of electricity such as current or voltage can be measured between the circuit breaker and the load. The instrument can be connected to a breaker to measure current or voltage.

An object of the present invention is to provide a meter capable of connecting a bus bar and a voltage detection board connected to a circuit breaker with a simple structure and being easy to maintain.

A meter according to an embodiment of the present invention includes a current transformer assembly having a bus bar connected to a breaker; A PCB assembly to which a voltage detection board and a control board are connected; And a screw for connecting the bus bar and the voltage detection board, wherein the voltage detection board detects a voltage through the screw.

The bus bar and the voltage detection board may be respectively formed with through holes through which the screws are disposed.

Wherein the voltage detection board is formed around the through hole of the voltage detection board and is in contact with the screw; And a pattern connected to the copper foil.

The current transformer assembly includes a wall forming a space for accommodating the bus bar, and the wall may have a board insertion slot into which the voltage detection board is inserted.

The bus bar may include a fastening portion having the through-hole formed therein; And a terminal portion that is perpendicular to the fastening portion.

 The control cover may further include an outer cover covering the control board and a center cover disposed between the outer cover and the current transformer assembly. The center cover may include a shielding portion covering the coupling portion and the voltage detection board.

The shield may be formed with a through-hole through which the screw passes.

The control board may be orthogonal to the voltage detection board.

According to the embodiment of the present invention, the bus bar and the voltage detection board of the current transformer assembly are mechanically fastened and electrically connected by the screws, and the voltage detection board and the bus bar of the current transformer assembly are electrically connected There is an advantage that the structure is simpler and the maintenance is easier.

FIG. 1 is a diagram showing a configuration of a distribution board to which a meter according to an embodiment of the present invention is applied.
Figure 2 is a perspective view of an instrument according to an embodiment of the present invention,
3 is an exploded perspective view of a meter according to an embodiment of the present invention,
4 is a side view of the package assembly shown in FIG.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.

1 is a diagram showing a configuration of a distribution board to which a meter according to an embodiment of the present invention is applied.

The distribution board includes bus bars 1 and 2 constituting a power system, a circuit breaker 3 provided with a circuit for connecting and disconnecting the power system, and a meter 4 for measuring the amount of electricity such as voltage and current of the power system .

The bus bars 1 and 2 may include a bus bar side bus bar 1 and a branch bus bar 2 connected to the bus bar side bus bar 1.

The busbar side bus bar 1 may be provided for each of the R phase, the T phase, and the S phase. The busbar side bar bar 1 may further include a ground bus bar.

A plurality of branch wire bus bars 2 can be connected to the bus bar side bus bar 1. Each of the branch line bus bars 2 may be provided for each of the R phase, the T phase, and the S phase.

The circuit breaker 3 may be connected to the load 5 to apply or cut off the current to the load 5.

The circuit breaker 3 may be connected to the busbar side bus bar 1. The circuit breaker 3 may be connected to the branch wire bus bar 2 so as to be positioned between the bus bar side bus bar 1 and the load demand source 5.

The meter (4) is provided between the circuit breaker (3) and the load (5) and can measure current or voltage. The measuring instrument 4 may be installed to be connected to the circuit breaker 1 or may be installed apart from the circuit breaker 1. The meter 4 can be connected to the bus bars 1 and 2 so as to be positioned between the circuit breaker 3 and the load 5.

The circuit breaker 3 includes a busbar side circuit breaker 3A for interrupting and applying the current flowing through the busbar side bus bar 1 and a branch line side circuit breaker 3B for interrupting the current flowing through the branch bus bar 2 . The bus-side breaker 3A and the branch line-side circuit breaker 3B are different only in their positions and may have the same configuration. Hereinafter, the common constitution will be referred to as a circuit breaker 3.

The meter 4 may be a digital panel meter that measures voltage and current of a power system and calculates and displays various electric quantities including power and electric power. In recent years, as the importance of energy management becomes more important, the scope of power surveillance extends not only to the total power amount in the distribution panel but also to the amount of power per each load, and accordingly, not only the electricity amount measurement of the bus (bus bar on the bus side) It is necessary to measure the electricity quantity per bus bar on the branch line side.

The meter 4 has a main meter 4A connected to the bus bar bus bar 1 for measuring the current and voltage of the bus bar bus bar 1 and a main meter 4A connected to the branch bus bar 1, And the branch current meter 4B. The main measuring instrument 4A and the ground measuring instrument 4B are different only in their positions and may have the same configuration. Hereinafter, a common constitution will be referred to as a measuring instrument 4 and will be described.

On the other hand, the measuring instrument 4 may be a direct-type measuring instrument having a bus bar 42 (see Figs. 2 to 4) directly connected to the circuit breaker 3. The meter 4 may be arranged adjacent to the circuit breaker 3 when it is constituted by a direct measuring type meter and may be directly connected to the circuit breaker 3 via a bus bar 42 (see Figs. 2 to 3).

On the other hand, the distribution panel can transmit the various electric quantities measured by the respective meters 4 to the main meter 7, which is an upper monitoring group, through the communication medium 6, and the main meter 7, ) Can be received and displayed centrally. The main meter 7 may be connected to a plurality of meters 4 by a communication medium 6 such as an RS485 communication line or the like and may include a display 8 for displaying various electric quantities.

FIG. 2 is a perspective view of a meter according to an embodiment of the present invention connected to a breaker, FIG. 3 is an exploded perspective view of a meter according to an embodiment of the present invention, and FIG. 4 is a side view of the FIG.

The measuring instrument 4 can measure a three-phase voltage or a single-phase voltage that is directly connected to the secondary side of the circuit breaker 3 shown in Fig. 1 and caught on the bus or branch line. The meter (4) can measure the three-phase current or the single-phase current by passing the current of the bus or branch line through each of the three built-in current converters. The meter 4 can calculate various electrical quantities including power and power using three-phase voltage and three-phase current or single-phase voltage and single-phase current.

The meter 4 includes a current transformer assembly 40, a package assembly 60 and a screw 70.

The current transformer assembly (40) includes a bus bar (42) connected to the circuit breaker (3). The bus bar 42 may be provided for each of the R phase, the T phase, and the S phase in the current transformer housing 43.

The current transformer assembly 40 may further include a current transformer housing 43 in which the bus bar 42 is disposed. The current transformer housing (43) can form the external appearance of the current transformer assembly (40). A space may be formed inside the current transformer housing (43). The current transformer assembly 40 may include a current transformer (CT) inside the current transformer housing 43. The current transformer may be disposed in a shape surrounding the bus bar 42.

The current transformer assembly 40 can be connected to a current measuring cable (not shown) or a current transformer output terminal, and the current measuring cable or current transformer output terminal is connected to a control board 64 .

The bus bar 42 may be arranged to penetrate the current transformer assembly 40 and may be directly connected to the circuit breaker 3.

The bus bar 42 may be formed with a through hole 44 through which the screw 70 is inserted. The bus bar 42 may be connected to the PCB assembly 60 by a screw 70 passing through the through hole 44 in contact with the through hole 44. [ The bus bar 42 may be a screw-nosed bus bar that contacts the screw 70.

The bus bar 42 may include a fastening portion 45 formed with a through hole 44 and a terminal portion 46 orthogonal to the fastening portion 45.

The fastening portion 45 may be mechanically fastened to the PCB assembly 60 through the screw 70 and may be electrically connected to the PCB assembly 60 through the screw 70. The fastening portion 45 may be partially parallel to a portion of the package 60. The fastening portion 45 may be in direct contact with a portion of the package assembly 60.

The terminal portion 46 may be spaced apart from the PCB assembly 60 and may be electrically connected to the PCB assembly 60 through the fastening portion 45 and the screw 70.

The bus bar 42 includes a primary bus bar 47 connected to the circuit breaker 3 and a secondary bus bar 48 connected to an external cable or an external bus bar ).

The bus bar 42 is configured such that the primary bus bar 47 and the secondary bus bar 48 are constituted by one member. The bus bar 42 is constructed such that the primary bus bar 47 and the secondary bus bar 48 are made of separate members and that the primary bus bar 47 and the secondary bus bar 48 are directly or It is of course also possible to connect via a separate connector bus bar.

The primary bus bar 47 may be disposed facing the circuit breaker 3 in the current transformer housing 43. The primary bus bar 47 may be disposed so as to protrude with respect to the current transformer housing 43 and may be inserted into the circuit breaker 3 and connected to a secondary bus bar (not shown) provided in the circuit breaker 3.

The secondary bus bar 48 may be disposed on the current transformer housing 43 so as to be positioned opposite the primary bus bar 47. The secondary bus bar 48 may include a fastening portion 45 and a terminal portion 46.

The fastening portion 45 may be a portion of the secondary bus bar 48 that is covered by a shielding portion 92 described later. The fastening portion 45 may be formed orthogonal to the terminal portion 46.

The terminal portion 46 is not covered by a shielding portion 92 of the secondary bus bar 48 described later and is a portion seen from the outside of the current transformer assembly 40 as shown in FIG. An external bus bar or external cable external to the meter 4 may be connected to the terminal portion 46.

The PCB assembly 60 may include a voltage detection board 62 and a control board 64 and the voltage detection board 62 and the control board 64 may be connected.

The voltage detection board 62 may be provided with a voltage conversion circuit 69 for voltage detection, as shown in FIG.

The voltage detection board 62 can be connected to the bus bar 42 via the screw 70 and can detect the voltage through the screw 70.

The voltage detection board 62 may be formed with a through hole 66 through which the screw 70 is inserted.

The voltage detection board 62 may include a copper foil 67 to which the screw 70 is to be contacted and a pattern 68 connected to the copper foil 67.

The copper foil 67 may be formed along the through hole 66 of the voltage detection board 62. The copper foil 47 can be brought into contact with the outer periphery of the screw 70 when the screw 70 is fastened.

The pattern 68 may be connected to a voltage conversion circuit 69 for voltage detection.

The voltage conversion circuit 69 of the voltage detection board 62 can be energized with the bus bar 42 through the pattern 68 and the copper foil 67 and the screw 70. [

The control board 64 may be connected to the current transformer assembly 40 via a current measurement cable (not shown) or a current transformer output terminal. The control board 64 may be directly connected to the voltage detection board 62.

The voltage output from the voltage detection board 62 may be input to the control board 64, and an MCU for performing various operations may be provided.

The control board 64 may be provided with an MCU for calculating voltage and current based on the output current output from the current transformer CT and the output voltage output from the voltage detection board 62. [ The MCU can calculate various measured values such as the amount of electric power by the voltage and the current.

The control board 64 may be provided with a display component 65A such as an LED assembly or an LCD capable of displaying various measured values. The display component 65A is connected to the MCU and can visually display various measured values according to signals output from the MCU.

The control board 64 may further include a communication unit 65B capable of communicating with an external device. The communication unit 65B may include a cable connector to which a communication cable connecting the external device and the control board 64 is connected.

The control board 64 is preferably constructed in consideration of the voltage detection board 62 and the insulation creepage distance. The control board 64 may be orthogonal to the voltage detection board 62.

The PCB assembly 60 converts the three-phase voltage signal and the three-phase current signal into A / D conversion, or converts the single-phase voltage signal and the single-phase current signal into A / D conversion and calculates an RMS value (i.e., an effective value, Root MEAN square value) , The calculation result is displayed on the display component 65A to be described later, and the information can be transmitted to the communication section 65B described later. Here, the amount of electricity that can be measured by the measuring instrument 4 may be voltage, current, frequency, active power, reactive power, active power amount, reactive power amount, harmonic content rate, and the like.

The screw 70 can fasten the bus bar 42 to the voltage detection board 62 and the current of the bus bar 42 can be applied to the voltage detection board 62 through the screw 70. [

The meter may further include an outer cover 80 covering the control board 64 and a center cover 90 disposed between the outer cover 80 and the current transformer assembly 40.

The center cover 90 may include a shielding portion 92 for covering the fastening portion 45 and the voltage detection board 62.

The shielding portion 92 may be formed with a through hole 94 through which the screw 70 is inserted.

The current transformer assembly 40 may include walls 56, 58 forming a space for receiving the bus bar 42. The space S accommodating the bus bar 42 may be formed by a current transformer housing 43 and the walls 56 and 58 may be formed in the current transformer housing 43. [

On the other hand, the walls 56 and 58 of the current transformer assembly 40 may be formed with a board insertion slot 59A into which the voltage detection board 62 of the PCB assembly 60 is inserted. The walls 56 and 58 of the current transformer assembly 40 may be formed with a shield insertion slot 59B into which the shield 92 of the center cover 90 is inserted.

A plurality of walls 56 and 58 may be provided and a plurality of walls 56 and 58 may be provided in parallel with the current transformer housing 43. The walls 56 and 58 may include a pair of outer walls 56 positioned relatively outward of the plurality and a plurality of inner walls 58 positioned between the pair of outer walls 56 .

The board insertion slot 59A may be formed in the plurality of inner walls 58. [ The voltage detection board 62 of the PCB assembly 60 can be inserted between the pair of outer walls 56 and both ends of the voltage detection board 62 can be protected by the pair of outer walls 56 have. When the voltage detection board 62 is inserted, the voltage detection board 62 can be inserted to face the coupling part 45 of the bus bar 42. When the voltage detection board 62 is inserted, The through hole 66 of the detection board 62 and the through hole 44 of the fastening portion 45 can be matched with each other.

The shielding slot 59B may be formed in the plurality of inner walls 58. [ The shielding portion 92 of the center cover 90 can be inserted between the pair of outer walls 56 and both ends of the shielding portion 92 can be protected by the pair of outer walls 56. [ When the shielding portion 92 is inserted, the shielding portion 92 can be inserted into the shielding portion slot 59B while shielding the coupling portion 45 of the bus bar 42. When the shielding portion 92 is shielded, When inserted into the sub slot 59B, the shielding portion 92 may be blocked so that the fastening portion 45 of the bus bar 42 is not exposed to the outside.

The operator who assemble the measuring instrument 4 can confirm that the screw 70 penetrates the through hole 94 of the shielding portion 92 and the through hole of the fastening portion 45 and the through hole 66 of the voltage measuring board 62, And the screw 70 is brought into contact with each of the clamping portion 45 and the voltage measuring board 62 so as to mechanically and electrically connect the clamping portion 45 and the voltage measuring board 62 .

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

3: Circuit breaker 4: Meter
40: Current transformer assembly 42: Bus bar
44: through hole 45: fastening part
46: terminal portion 58: wall
60: PCB assembly 62: Voltage detection board
64: control board 66: copper foil
68: pattern 70: screw
80: outer cover 90: center cover
92: shield

Claims (8)

A current transformer assembly having a bus bar connected to the breaker;
A PCB assembly to which a voltage detection board and a control board are connected;
And a screw for fastening the bus bar and the voltage detection board,
And the voltage detection board detects the voltage through the screw. The method according to claim 1,
Wherein the bus bar and the voltage detection board are respectively formed with through holes through which the screws are inserted. 3. The method of claim 2,
Wherein the voltage detection board is formed around the through hole of the voltage detection board and is in contact with the screw;
And a pattern connected to said copper foil. 3. The method of claim 2,
The current transformer assembly
And a wall forming a space for accommodating the bus bar,
And a board insertion slot into which the voltage detection board is inserted is formed in the wall. 3. The method of claim 2,
The bus bar
A fastening portion formed with the through hole;
And a terminal portion orthogonal to the fastening portion. 6. The method of claim 5,
An outer cover covering the control board,
Further comprising a center cover disposed between the outer cover and the current transformer assembly,
And the center cover includes a shielding portion covering the coupling portion and the voltage detection board. The method according to claim 6,
And a screw through hole is formed in the shielding portion so that the screw penetrates through the shielding portion. The method according to claim 1,
Wherein the control board is orthogonal to the voltage detection board.

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